﻿<table>
	<tr>
		<td>
			AddValues
		</td>
		<td>
			58
		</td>
		<td>
			add
		</td>
		<td>
			Add two values, returning a new value.
		</td>
	</tr>
	<tr>
		<td>
			AddSignedIntegerValuesAndCheckOverflow
		</td>
		<td>
			D6
		</td>
		<td>
			add.ovf
		</td>
		<td>
			Add signed integer values with overflow check.
		</td>
	</tr>
	<tr>
		<td>
			AddUnsignedIntegerValuesAndCheckOverflow
		</td>
		<td>
			D7
		</td>
		<td>
			add.ovf.un
		</td>
		<td>
			Add unsigned integer values with overflow check.
		</td>
	</tr>
	<tr>
		<td>
			AndIntegerValues
		</td>
		<td>
			5F
		</td>
		<td>
			and
		</td>
		<td>
			Bitwise AND of two integral values, returns an integral value.
		</td>
	</tr>
	<tr>
		<td>
			GetArgumentListHandle
		</td>
		<td>
			FE 00
		</td>
		<td>
			arglist
		</td>
		<td>
			Return argument list handle for the current method.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfEqual32
		</td>
		<td>
			3B
		</td>
		<td>
			beq &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if equal.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfEqual8
		</td>
		<td>
			2E
		</td>
		<td>
			beq.s&lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if equal, short form.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfGreaterThanOrEqualTo32
		</td>
		<td>
			3C
		</td>
		<td>
			bge &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if greater than or equal to.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfGreaterThanOrEqualTo8
		</td>
		<td>
			2F
		</td>
		<td>
			bge.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if greater than or equal to, short form.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfGreaterThanOrEqualToUnsigned32
		</td>
		<td>
			41
		</td>
		<td>
			bge.un &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if greater than or equal to (unsigned or unordered).
		</td>
	</tr>
	<tr>
		<td>
			BranchIfGreaterThanOrEqualToUnsigned8
		</td>
		<td>
			34
		</td>
		<td>
			bge.un.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if greater than or equal to (unsigned or unordered), short form
		</td>
	</tr>
	<tr>
		<td>
			BranchIfGreaterThan32
		</td>
		<td>
			3D
		</td>
		<td>
			bgt &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if greater than.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfGreaterThan8
		</td>
		<td>
			30
		</td>
		<td>
			bgt.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if greater than, short form.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfGreaterThanUnsigned32
		</td>
		<td>
			42
		</td>
		<td>
			bgt.un &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if greater than (unsigned or unordered).
		</td>
	</tr>
	<tr>
		<td>
			BranchIfGreaterThanUnsigned8
		</td>
		<td>
			35
		</td>
		<td>
			bgt.un.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if greater than (unsigned or unordered), short form.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfLessThanOrEqualTo32
		</td>
		<td>
			3E
		</td>
		<td>
			ble &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if less than or equal to.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfLessThanOrEqualTo8
		</td>
		<td>
			31
		</td>
		<td>
			ble.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if less than or equal to, short form.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfLessThanOrEqualToUnsigned32
		</td>
		<td>
			43
		</td>
		<td>
			ble.un &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if less than or equal to (unsigned or unordered).
		</td>
	</tr>
	<tr>
		<td>
			BranchIfLessThanOrEqualToUnsigned8
		</td>
		<td>
			36
		</td>
		<td>
			ble.un.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if less than or equal to (unsigned or unordered), short form
		</td>
	</tr>
	<tr>
		<td>
			BranchIfLessThan32
		</td>
		<td>
			3F
		</td>
		<td>
			blt &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if less than.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfLessThan8
		</td>
		<td>
			32
		</td>
		<td>
			blt.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if less than, short form.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfLessThanUnsigned32
		</td>
		<td>
			44
		</td>
		<td>
			blt.un &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if less than (unsigned or unordered).
		</td>
	</tr>
	<tr>
		<td>
			BranchIfLessThanUnsigned8
		</td>
		<td>
			37
		</td>
		<td>
			blt.un.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if less than (unsigned or unordered), short form.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfNotEqual32
		</td>
		<td>
			40
		</td>
		<td>
			bne.un &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if unequal or unordered.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfNotEqual8
		</td>
		<td>
			33
		</td>
		<td>
			bne.un.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if unequal or unordered, short form.
		</td>
	</tr>
	<tr>
		<td>
			BoxValue
		</td>
		<td>
			8C
		</td>
		<td>
			box &lt;typeTok&gt;
		</td>
		<td>
			Convert a boxable value to its boxed form
		</td>
	</tr>
	<tr>
		<td>
			JumpTo32
		</td>
		<td>
			38
		</td>
		<td>
			br &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target.
		</td>
	</tr>
	<tr>
		<td>
			JumpTo8
		</td>
		<td>
			2B
		</td>
		<td>
			br.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target, short form.
		</td>
	</tr>
	<tr>
		<td>
			Break
		</td>
		<td>
			01
		</td>
		<td>
			break
		</td>
		<td>
			Inform a debugger that a breakpoint has been reached.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfFalse32
		</td>
		<td>
			39
		</td>
		<td>
			brfalse &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if value is zero (false).
		</td>
	</tr>
	<tr>
		<td>
			BranchIfFalse8
		</td>
		<td>
			2C
		</td>
		<td>
			brfalse.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if value is zero (false), short form.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfNotNull32
		</td>
		<td>
			3A
		</td>
		<td>
			brinst &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if value is a non-null object reference (alias for brtrue).
		</td>
	</tr>
	<tr>
		<td>
			BranchIfNotNull8
		</td>
		<td>
			2D
		</td>
		<td>
			brinst.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if value is a non-null object reference, short form (alias for brtrue.s).
		</td>
	</tr>
	<tr>
		<td>
			BranchIfNull32
		</td>
		<td>
			39
		</td>
		<td>
			brnull &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if value is null (alias for brfalse).
		</td>
	</tr>
	<tr>
		<td>
			BranchIfNull8
		</td>
		<td>
			2C
		</td>
		<td>
			brnull &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if value is null (alias for brfalse.s), short form.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfTrue32
		</td>
		<td>
			3A
		</td>
		<td>
			brtrue &lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if value is non-zero (true).
		</td>
	</tr>
	<tr>
		<td>
			BranchIfTrue8
		</td>
		<td>
			2D
		</td>
		<td>
			brtrue.s &lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if value is non-zero (true), short form.
		</td>
	</tr>
	<tr>
		<td>
			BranchIfZero32
		</td>
		<td>
			39
		</td>
		<td>
			brzero&lt;int32 (target)&gt;
		</td>
		<td>
			Branch to target if value is zero (alias for brfalse).
		</td>
	</tr>
	<tr>
		<td>
			BranchIfZero8
		</td>
		<td>
			2C
		</td>
		<td>
			brzero&lt;int8 (target)&gt;
		</td>
		<td>
			Branch to target if value is zero (alias for brfalse.s), short form.
		</td>
	</tr>
	<tr>
		<td>
			CallMethod
		</td>
		<td>
			28
		</td>
		<td>
			call &lt;method&gt;
		</td>
		<td>
			Call method described by method.
		</td>
	</tr>
	<tr>
		<td>
			CallSite
		</td>
		<td>
			29
		</td>
		<td>
			calli &lt;callsitedescr&gt;
		</td>
		<td>
			Call method indicated on the stack with arguments described by callsitedescr.
		</td>
	</tr>
	<tr>
		<td>
			CallObjectMethod
		</td>
		<td>
			6F
		</td>
		<td>
			callvirt &lt;method&gt;
		</td>
		<td>
			Call a method associated with an object.
		</td>
	</tr>
	<tr>
		<td>
			CastObject
		</td>
		<td>
			74
		</td>
		<td>
			castclass &lt;class&gt;
		</td>
		<td>
			Cast obj to class.
		</td>
	</tr>
	<tr>
		<td>
			PushEqual
		</td>
		<td>
			FE 01
		</td>
		<td>
			ceq
		</td>
		<td>
			Push 1 (of type int32) if value1 equals value2, else push 0.
		</td>
	</tr>
	<tr>
		<td>
			PushGreaterThan
		</td>
		<td>
			FE 02
		</td>
		<td>
			cgt
		</td>
		<td>
			Push 1 (of type int32) if value1 &gt; value2, else push 0.
		</td>
	</tr>
	<tr>
		<td>
			PushGreaterThanUnsigned
		</td>
		<td>
			FE 03
		</td>
		<td>
			cgt.un
		</td>
		<td>
			Push 1 (of type int32) if value1 &gt; value2, unsigned or unordered, else push 0.
		</td>
	</tr>
	<tr>
		<td>
			CheckFiniteNumber
		</td>
		<td>
			C3
		</td>
		<td>
			ckfinite
		</td>
		<td>
			Throw ArithmeticException if value is not a finite number.
		</td>
	</tr>
	<tr>
		<td>
			PushLessThan
		</td>
		<td>
			FE 04
		</td>
		<td>
			clt
		</td>
		<td>
			Push 1 (of type int32) if value1 &lt; value2, else push 0.
		</td>
	</tr>
	<tr>
		<td>
			PushLessThanUnordered
		</td>
		<td>
			FE 05
		</td>
		<td>
			clt.un
		</td>
		<td>
			Push 1 (of type int32) if value1 &lt; value2, unsigned or unordered, else push 0.
		</td>
	</tr>
	<tr>
		<td>
			CallVirtualMethodForType
		</td>
		<td>
			FE 16
		</td>
		<td>
			constrained. &lt;thisType&gt; [prefix]
		</td>
		<td>
			Call a virtual method on a type constrained to be type T
		</td>
	</tr>
	<tr>
		<td>
			ConvertToNativeInteger
		</td>
		<td>
			D3
		</td>
		<td>
			conv.i
		</td>
		<td>
			Convert to native int, pushing native int on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToByte
		</td>
		<td>
			67
		</td>
		<td>
			conv.i1
		</td>
		<td>
			Convert to int8, pushing int32 on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToShort
		</td>
		<td>
			68
		</td>
		<td>
			conv.i2
		</td>
		<td>
			Convert to int16, pushing int32 on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToInteger
		</td>
		<td>
			69
		</td>
		<td>
			conv.i4
		</td>
		<td>
			Convert to int32, pushing int32 on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToLong
		</td>
		<td>
			6A
		</td>
		<td>
			conv.i8
		</td>
		<td>
			Convert to int64, pushing int64 on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToNativeIntegerAndCheckOverflow
		</td>
		<td>
			D4
		</td>
		<td>
			conv.ovf.i
		</td>
		<td>
			Convert to a native int (on the stack as native int) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertUnsignedToNativeIntegerAndCheckOverflow
		</td>
		<td>
			8A
		</td>
		<td>
			conv.ovf.i.un
		</td>
		<td>
			Convert unsigned to a native int (on the stack as native int) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToByteAndCheckOverflow
		</td>
		<td>
			B3
		</td>
		<td>
			conv.ovf.i1
		</td>
		<td>
			Convert to an int8 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertUnsignedToByteAndCheckOverflow
		</td>
		<td>
			82
		</td>
		<td>
			conv.ovf.i1.un
		</td>
		<td>
			Convert unsigned to an int8 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToShortAndCheckOverflow
		</td>
		<td>
			B5
		</td>
		<td>
			conv.ovf.i2
		</td>
		<td>
			Convert to an int16 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertUnsignedToShortAndCheckOverflow
		</td>
		<td>
			83
		</td>
		<td>
			conv.ovf.i2.un
		</td>
		<td>
			Convert unsigned to an int16 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToIntegerAndCheckOverflow
		</td>
		<td>
			B7
		</td>
		<td>
			conv.ovf.i4
		</td>
		<td>
			Convert to an int32 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertUnsignedToIntegerAndCheckOverflow
		</td>
		<td>
			84
		</td>
		<td>
			conv.ovf.i4.un
		</td>
		<td>
			Convert unsigned to an int32 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToLongAndCheckOverflow
		</td>
		<td>
			B9
		</td>
		<td>
			conv.ovf.i8
		</td>
		<td>
			Convert to an int64 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertUnsignedToLongAndCheckOverflow
		</td>
		<td>
			85
		</td>
		<td>
			conv.ovf.i8.un
		</td>
		<td>
			Convert unsigned to an int64 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToNativeUnsignedIntegerAndCheckOverflow
		</td>
		<td>
			D5
		</td>
		<td>
			conv.ovf.u
		</td>
		<td>
			Convert to a native unsigned int (on the stack as native int) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertUnsignedToNativeUnsignedIntegerAndCheckOverflow
		</td>
		<td>
			8B
		</td>
		<td>
			conv.ovf.u.un
		</td>
		<td>
			Convert unsigned to a native unsigned int (on the stack as native int) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToUnsignedByteAndCheckOverflow
		</td>
		<td>
			B4
		</td>
		<td>
			conv.ovf.u1
		</td>
		<td>
			Convert to an unsigned int8 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertUnsignedToUnsignedByteAndCheckOverflow
		</td>
		<td>
			86
		</td>
		<td>
			conv.ovf.u1.un
		</td>
		<td>
			Convert unsigned to an unsigned int8 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToUnsignedShortAndCheckOverflow
		</td>
		<td>
			B6
		</td>
		<td>
			conv.ovf.u2
		</td>
		<td>
			Convert to an unsigned int16 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertUnsignedToUnsignedShortAndCheckOverflow
		</td>
		<td>
			87
		</td>
		<td>
			conv.ovf.u2.un
		</td>
		<td>
			Convert unsigned to an unsigned int16 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToUnsignedIntegerAndCheckOverflow
		</td>
		<td>
			B8
		</td>
		<td>
			conv.ovf.u4
		</td>
		<td>
			Convert to an unsigned int32 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertUnsignedToUnsignedIntegerAndCheckOverflow
		</td>
		<td>
			88
		</td>
		<td>
			conv.ovf.u4.un
		</td>
		<td>
			Convert unsigned to an unsigned int32 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToUnsignedLongAndCheckOverflow
		</td>
		<td>
			BA
		</td>
		<td>
			conv.ovf.u8
		</td>
		<td>
			Convert to an unsigned int64 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertUnsignedToUnsignedLongAndCheckOverflow
		</td>
		<td>
			89
		</td>
		<td>
			conv.ovf.u8.un
		</td>
		<td>
			Convert unsigned to an unsigned int64 (on the stack as int32) and throw an exception on overflow.
		</td>
	</tr>
	<tr>
		<td>
			ConvertUnsignedToFloat
		</td>
		<td>
			76
		</td>
		<td>
			conv.r.un
		</td>
		<td>
			Convert unsigned integer to floating-point, pushing F on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToFloat
		</td>
		<td>
			6B
		</td>
		<td>
			conv.r4
		</td>
		<td>
			Convert to float32, pushing F on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToDouble
		</td>
		<td>
			6C
		</td>
		<td>
			conv.r8
		</td>
		<td>
			Convert to float64, pushing F on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToNativeUnsignedInteger
		</td>
		<td>
			E0
		</td>
		<td>
			conv.u
		</td>
		<td>
			Convert to native unsigned int, pushing native int on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToUnsignedByte
		</td>
		<td>
			D2
		</td>
		<td>
			conv.u1
		</td>
		<td>
			Convert to unsigned int8, pushing int32 on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToUnsignedShort
		</td>
		<td>
			D1
		</td>
		<td>
			conv.u2
		</td>
		<td>
			Convert to unsigned int16, pushing int32 on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToUnsignedInteger
		</td>
		<td>
			6D
		</td>
		<td>
			conv.u4
		</td>
		<td>
			Convert to unsigned int32, pushing int32 on stack.
		</td>
	</tr>
	<tr>
		<td>
			ConvertToUnsignedLong
		</td>
		<td>
			6E
		</td>
		<td>
			conv.u8
		</td>
		<td>
			Convert to unsigned int64, pushing int64 on stack.
		</td>
	</tr>
	<tr>
		<td>
			CopyMemory
		</td>
		<td>
			FE 17
		</td>
		<td>
			cpblk
		</td>
		<td>
			Copy data from memory to memory.
		</td>
	</tr>
	<tr>
		<td>
			CopyValue
		</td>
		<td>
			70
		</td>
		<td>
			cpobj &lt;typeTok&gt;
		</td>
		<td>
			Copy a value type from src to dest.
		</td>
	</tr>
	<tr>
		<td>
			DivideValues
		</td>
		<td>
			5B
		</td>
		<td>
			div
		</td>
		<td>
			Divide two values to return a quotient or floating-point result.
		</td>
	</tr>
	<tr>
		<td>
			DivideUnsignedValues
		</td>
		<td>
			5C
		</td>
		<td>
			div.un
		</td>
		<td>
			Divide two values, unsigned, returning a quotient.
		</td>
	</tr>
	<tr>
		<td>
			DuplicateValue
		</td>
		<td>
			25
		</td>
		<td>
			dup
		</td>
		<td>
			Duplicate the value on the top of the stack.
		</td>
	</tr>
	<tr>
		<td>
			EndFault
		</td>
		<td>
			DC
		</td>
		<td>
			endfault
		</td>
		<td>
			End fault clause of an exception block.
		</td>
	</tr>
	<tr>
		<td>
			EndFilter
		</td>
		<td>
			FE 11
		</td>
		<td>
			endfilter
		</td>
		<td>
			End an exception handling filter clause.
		</td>
	</tr>
	<tr>
		<td>
			EndFinally
		</td>
		<td>
			DC
		</td>
		<td>
			endfinally
		</td>
		<td>
			End finally clause of an exception block.
		</td>
	</tr>
	<tr>
		<td>
			PushLongValue
		</td>
		<td>
			4C
		</td>
		<td>
			idind.u8
		</td>
		<td>
			Indirect load value of type unsigned int64 as int64 on the stack (alias for ldind.i8).
		</td>
	</tr>
	<tr>
		<td>
			SetMemory
		</td>
		<td>
			FE 18
		</td>
		<td>
			initblk
		</td>
		<td>
			Set all bytes in a block of memory to a given byte value.
		</td>
	</tr>
	<tr>
		<td>
			InitializeMemory
		</td>
		<td>
			FE 15
		</td>
		<td>
			initobj &lt;typeTok&gt;
		</td>
		<td>
			Initialize the value at address dest.
		</td>
	</tr>
	<tr>
		<td>
			GetObjectAsType
		</td>
		<td>
			75
		</td>
		<td>
			isinst &lt;class&gt;
		</td>
		<td>
			Test if obj is an instance of class, returning null or an instance of that class or interface.
		</td>
	</tr>
	<tr>
		<td>
			JumpToMethod
		</td>
		<td>
			27
		</td>
		<td>
			jmp &lt;method&gt;
		</td>
		<td>
			Exit current method and jump to the specified method.
		</td>
	</tr>
	<tr>
		<td>
			PushArgumentToStack16
		</td>
		<td>
			FE 09
		</td>
		<td>
			ldarg &lt;uint16 (num)&gt;
		</td>
		<td>
			Load argument numbered num onto the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushArgument0ToStack
		</td>
		<td>
			02
		</td>
		<td>
			ldarg.0
		</td>
		<td>
			Load argument 0 onto the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushArgument1ToStack
		</td>
		<td>
			03
		</td>
		<td>
			ldarg.1
		</td>
		<td>
			Load argument 1 onto the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushArgument2ToStack
		</td>
		<td>
			04
		</td>
		<td>
			ldarg.2
		</td>
		<td>
			Load argument 2 onto the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushArgument3ToStack
		</td>
		<td>
			05
		</td>
		<td>
			ldarg.3
		</td>
		<td>
			Load argument 3 onto the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushArgumentToStack8
		</td>
		<td>
			0E
		</td>
		<td>
			ldarg.s &lt;uin8 (num)&gt;
		</td>
		<td>
			Load argument numbered num onto the stack, short form.
		</td>
	</tr>
	<tr>
		<td>
			GetArgumentAddress16
		</td>
		<td>
			FE 0A
		</td>
		<td>
			ldarga &lt;uint16 (argNum)&gt;
		</td>
		<td>
			Fetch the address of argument argNum.
		</td>
	</tr>
	<tr>
		<td>
			GetArgumentAddress8
		</td>
		<td>
			0F
		</td>
		<td>
			ldarga.s &lt;uint8 (argNum)&gt;
		</td>
		<td>
			Fetch the address of argument argNum, short form.
		</td>
	</tr>
	<tr>
		<td>
			PushIntegerValueToStack
		</td>
		<td>
			20
		</td>
		<td>
			ldc.i4 &lt;int32 (num)&gt;
		</td>
		<td>
			Push num of type int32 onto the stack as int32.
		</td>
	</tr>
	<tr>
		<td>
			PushZeroToStack32
		</td>
		<td>
			16
		</td>
		<td>
			ldc.i4.0
		</td>
		<td>
			Push 0 onto the stack as int32.
		</td>
	</tr>
	<tr>
		<td>
			PushOneToStack32
		</td>
		<td>
			17
		</td>
		<td>
			ldc.i4.1
		</td>
		<td>
			Push 1 onto the stack as int32.
		</td>
	</tr>
	<tr>
		<td>
			PushTwoToStack32
		</td>
		<td>
			18
		</td>
		<td>
			ldc.i4.2
		</td>
		<td>
			Push 2 onto the stack as int32.
		</td>
	</tr>
	<tr>
		<td>
			PushThreeToStack32
		</td>
		<td>
			19
		</td>
		<td>
			ldc.i4.3
		</td>
		<td>
			Push 3 onto the stack as int32.
		</td>
	</tr>
	<tr>
		<td>
			PushFourToStack32
		</td>
		<td>
			1A
		</td>
		<td>
			ldc.i4.4
		</td>
		<td>
			Push 4 onto the stack as int32.
		</td>
	</tr>
	<tr>
		<td>
			PushFiveToStack32
		</td>
		<td>
			1B
		</td>
		<td>
			ldc.i4.5
		</td>
		<td>
			Push 5 onto the stack as int32.
		</td>
	</tr>
	<tr>
		<td>
			PushSixToStack32
		</td>
		<td>
			1C
		</td>
		<td>
			ldc.i4.6
		</td>
		<td>
			Push 6 onto the stack as int32.
		</td>
	</tr>
	<tr>
		<td>
			PushSevenToStack32
		</td>
		<td>
			1D
		</td>
		<td>
			ldc.i4.7
		</td>
		<td>
			Push 7 onto the stack as int32.
		</td>
	</tr>
	<tr>
		<td>
			PushEightToStack32
		</td>
		<td>
			1E
		</td>
		<td>
			ldc.i4.8
		</td>
		<td>
			Push 8 onto the stack as int32.
		</td>
	</tr>
	<tr>
		<td>
			PushNegativeOneToStack32
		</td>
		<td>
			15
		</td>
		<td>
			ldc.i4.m1
		</td>
		<td>
			Push -1 onto the stack as int32.
		</td>
	</tr>
	<tr>
		<td>
			PushIntegerNegativeOneToStack32
		</td>
		<td>
			15
		</td>
		<td>
			ldc.i4.M1
		</td>
		<td>
			Push -1 of type int32 onto the stack as int32 (alias for ldc.i4.m1).
		</td>
	</tr>
	<tr>
		<td>
			PushByteValueToStack32
		</td>
		<td>
			1F
		</td>
		<td>
			ldc.i4.s &lt;int8 (num)&gt;
		</td>
		<td>
			Push num onto the stack as int32, short form.
		</td>
	</tr>
	<tr>
		<td>
			PushLongValueToStack64
		</td>
		<td>
			21
		</td>
		<td>
			ldc.i8 &lt;int64 (num)&gt;
		</td>
		<td>
			Push num of type int64 onto the stack as int64.
		</td>
	</tr>
	<tr>
		<td>
			PushFloatValueToStack32
		</td>
		<td>
			22
		</td>
		<td>
			ldc.r4 &lt;float32 (num)&gt;
		</td>
		<td>
			Push num of type float32 onto the stack as F.
		</td>
	</tr>
	<tr>
		<td>
			PushDoubleValueToStack32
		</td>
		<td>
			23
		</td>
		<td>
			ldc.r8 &lt;float64 (num)&gt;
		</td>
		<td>
			Push num of type float64 onto the stack as F.
		</td>
	</tr>
	<tr>
		<td>
			GetArrayItem
		</td>
		<td>
			A3
		</td>
		<td>
			ldelem &lt;typeTok&gt;
		</td>
		<td>
			Load the element at index onto the top of the stack.
		</td>
	</tr>
	<tr>
		<td>
			GetArrayNativeInteger
		</td>
		<td>
			97
		</td>
		<td>
			ldelem.i
		</td>
		<td>
			Load the element with type native int at index onto the top of the stack as a native int.
		</td>
	</tr>
	<tr>
		<td>
			GetArrayByte
		</td>
		<td>
			90
		</td>
		<td>
			ldelem.i1
		</td>
		<td>
			Load the element with type int8 at index onto the top of the stack as an int32.
		</td>
	</tr>
	<tr>
		<td>
			GetArrayShort
		</td>
		<td>
			92
		</td>
		<td>
			ldelem.i2
		</td>
		<td>
			Load the element with type int16 at index onto the top of the stack as an int32.
		</td>
	</tr>
	<tr>
		<td>
			GetArrayInteger
		</td>
		<td>
			94
		</td>
		<td>
			ldelem.i4
		</td>
		<td>
			Load the element with type int32 at index onto the top of the stack as an int32.
		</td>
	</tr>
	<tr>
		<td>
			GetArrayLong
		</td>
		<td>
			96
		</td>
		<td>
			ldelem.i8
		</td>
		<td>
			Load the element with type int64 at index onto the top of the stack as an int64.
		</td>
	</tr>
	<tr>
		<td>
			GetArrayFloat
		</td>
		<td>
			98
		</td>
		<td>
			ldelem.r4
		</td>
		<td>
			Load the element with type float32 at index onto the top of the stack as an F
		</td>
	</tr>
	<tr>
		<td>
			GetArrayDouble
		</td>
		<td>
			99
		</td>
		<td>
			ldelem.r8
		</td>
		<td>
			Load the element with type float64 at index onto the top of the stack as an F.
		</td>
	</tr>
	<tr>
		<td>
			GetArrayObject
		</td>
		<td>
			9A
		</td>
		<td>
			ldelem.ref
		</td>
		<td>
			Load the element at index onto the top of the stack as an O. The type
			<p>
				of the O is the same as the element type of the array pushed on the CIL stack.
			</p>
		</td>
	</tr>
	<tr>
		<td>
			GetArrayUnsignedByte
		</td>
		<td>
			91
		</td>
		<td>
			ldelem.u1
		</td>
		<td>
			Load the element with type unsigned int8 at index onto the top of the stack as an int32.
		</td>
	</tr>
	<tr>
		<td>
			GetArrayUnsignedShort
		</td>
		<td>
			93
		</td>
		<td>
			ldelem.u2
		</td>
		<td>
			Load the element with type unsigned int16 at index onto the top of the stack as an int32.
		</td>
	</tr>
	<tr>
		<td>
			GetArrayUnsignedInteger
		</td>
		<td>
			95
		</td>
		<td>
			ldelem.u4
		</td>
		<td>
			Load the element with type unsigned int32 at index onto the top of the stack as an int32.
		</td>
	</tr>
	<tr>
		<td>
			GetArrayUnsignedLong
		</td>
		<td>
			96
		</td>
		<td>
			ldelem.u8
		</td>
		<td>
			Load the element with type unsigned int64 at index onto the top of the stack as an int64 (alias for ldelem.i8).
		</td>
	</tr>
	<tr>
		<td>
			GetArrayItemAddress
		</td>
		<td>
			8F
		</td>
		<td>
			ldelema &lt;class&gt;
		</td>
		<td>
			Load the address of element at index onto the top of the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushFieldValueToStack
		</td>
		<td>
			7B
		</td>
		<td>
			ldfld &lt;field&gt;
		</td>
		<td>
			Push the value of field of object (or value type) obj, onto the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushFieldAddressToStack
		</td>
		<td>
			7C
		</td>
		<td>
			ldflda &lt;field&gt;
		</td>
		<td>
			Push the address of field of object obj on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushMethodPointerToStack
		</td>
		<td>
			FE 06
		</td>
		<td>
			ldftn &lt;method&gt;
		</td>
		<td>
			Push a pointer to a method referenced by method, on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushNativeIntegerToStack
		</td>
		<td>
			4D
		</td>
		<td>
			ldind.i
		</td>
		<td>
			Indirect load value of type native int as native int on the stack
		</td>
	</tr>
	<tr>
		<td>
			PushByteToStack32
		</td>
		<td>
			46
		</td>
		<td>
			ldind.i1
		</td>
		<td>
			Indirect load value of type int8 as int32 on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushShortToStack32
		</td>
		<td>
			48
		</td>
		<td>
			ldind.i2
		</td>
		<td>
			Indirect load value of type int16 as int32 on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushIntegerToStack32
		</td>
		<td>
			4A
		</td>
		<td>
			ldind.i4
		</td>
		<td>
			Indirect load value of type int32 as int32 on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushLongToStack64
		</td>
		<td>
			4C
		</td>
		<td>
			ldind.i8
		</td>
		<td>
			Indirect load value of type int64 as int64 on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushFloatToStack32
		</td>
		<td>
			4E
		</td>
		<td>
			ldind.r4
		</td>
		<td>
			Indirect load value of type float32 as F on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushDoubleToStack64
		</td>
		<td>
			4F
		</td>
		<td>
			ldind.r8
		</td>
		<td>
			Indirect load value of type float64 as F on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushObjectToStack
		</td>
		<td>
			50
		</td>
		<td>
			ldind.ref
		</td>
		<td>
			Indirect load value of type object ref as O on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushUnsignedByteToStack32
		</td>
		<td>
			47
		</td>
		<td>
			ldind.u1
		</td>
		<td>
			Indirect load value of type unsigned int8 as int32 on the stack
		</td>
	</tr>
	<tr>
		<td>
			PushUnsignedShortToStack32
		</td>
		<td>
			49
		</td>
		<td>
			ldind.u2
		</td>
		<td>
			Indirect load value of type unsigned int16 as int32 on the stack
		</td>
	</tr>
	<tr>
		<td>
			PushUnsignedIntegerToStack32
		</td>
		<td>
			4B
		</td>
		<td>
			ldind.u4
		</td>
		<td>
			Indirect load value of type unsigned int32 as int32 on the stack
		</td>
	</tr>
	<tr>
		<td>
			GetArrayLength
		</td>
		<td>
			8E
		</td>
		<td>
			ldlen
		</td>
		<td>
			Push the length (of type native unsigned int) of array on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushVariableToStack16
		</td>
		<td>
			FE 0C
		</td>
		<td>
			ldloc &lt;uint16 (indx)&gt;
		</td>
		<td>
			Load local variable of index indx onto stack.
		</td>
	</tr>
	<tr>
		<td>
			PushVariable0ToStack
		</td>
		<td>
			06
		</td>
		<td>
			ldloc.0
		</td>
		<td>
			Load local variable 0 onto stack.
		</td>
	</tr>
	<tr>
		<td>
			PushVariable1ToStack
		</td>
		<td>
			07
		</td>
		<td>
			ldloc.1
		</td>
		<td>
			Load local variable 1 onto stack.
		</td>
	</tr>
	<tr>
		<td>
			PushVariable2ToStack
		</td>
		<td>
			08
		</td>
		<td>
			ldloc.2
		</td>
		<td>
			Load local variable 2 onto stack.
		</td>
	</tr>
	<tr>
		<td>
			PushVariable3ToStack
		</td>
		<td>
			09
		</td>
		<td>
			ldloc.3
		</td>
		<td>
			Load local variable 3 onto stack.
		</td>
	</tr>
	<tr>
		<td>
			PushVariableToStack8
		</td>
		<td>
			11
		</td>
		<td>
			ldloc.s &lt;uint8 (indx)&gt;
		</td>
		<td>
			Load local variable of index indx onto stack, short form.
		</td>
	</tr>
	<tr>
		<td>
			PushVariableAddressToStack16
		</td>
		<td>
			FE 0D
		</td>
		<td>
			ldloca &lt;uint16 (indx)&gt;
		</td>
		<td>
			Load address of local variable with index indx.
		</td>
	</tr>
	<tr>
		<td>
			PushVariableAddressToStack8
		</td>
		<td>
			12
		</td>
		<td>
			ldloca.s &lt;uint8 (indx)&gt;
		</td>
		<td>
			Load address of local variable with index indx, short form.
		</td>
	</tr>
	<tr>
		<td>
			PushNullToStack
		</td>
		<td>
			14
		</td>
		<td>
			ldnull
		</td>
		<td>
			Push a null reference on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushMemoryValueToStack
		</td>
		<td>
			71
		</td>
		<td>
			ldobj &lt;typeTok&gt;
		</td>
		<td>
			Copy the value stored at address src to the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushFieldValueToStack
		</td>
		<td>
			7E
		</td>
		<td>
			ldsfld &lt;field&gt;
		</td>
		<td>
			Push the value of field on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushFieldAddressToStack
		</td>
		<td>
			7F
		</td>
		<td>
			ldsflda &lt;field&gt;
		</td>
		<td>
			Push the address of the static field, field, on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PushStringToStack
		</td>
		<td>
			72
		</td>
		<td>
			ldstr &lt;string&gt;
		</td>
		<td>
			Push a string object for the literal string.
		</td>
	</tr>
	<tr>
		<td>
			GetRuntimeMetadata
		</td>
		<td>
			D0
		</td>
		<td>
			ldtoken &lt;token&gt;
		</td>
		<td>
			Convert metadata token to its runtime representation.
		</td>
	</tr>
	<tr>
		<td>
			PushVirtualAddressToStack
		</td>
		<td>
			FE 07
		</td>
		<td>
			ldvirtftn &lt;method&gt;
		</td>
		<td>
			Push address of virtual method method on the stack.
		</td>
	</tr>
	<tr>
		<td>
			LeaveProtectedCode32
		</td>
		<td>
			DD
		</td>
		<td>
			leave &lt;int32 (target)&gt;
		</td>
		<td>
			Exit a protected region of code.
		</td>
	</tr>
	<tr>
		<td>
			LeaveProtectedCode8
		</td>
		<td>
			DE
		</td>
		<td>
			leave.s &lt;int8 (target)&gt;
		</td>
		<td>
			Exit a protected region of code, short form.
		</td>
	</tr>
	<tr>
		<td>
			AllocateLocalMemory
		</td>
		<td>
			FE 0F
		</td>
		<td>
			localloc
		</td>
		<td>
			Allocate space from the local memory pool.
		</td>
	</tr>
	<tr>
		<td>
			PushTypedReference
		</td>
		<td>
			C6
		</td>
		<td>
			mkrefany &lt;class&gt;
		</td>
		<td>
			Push a typed reference to ptr of type class onto the stack.
		</td>
	</tr>
	<tr>
		<td>
			MultiplyValues
		</td>
		<td>
			5A
		</td>
		<td>
			mul
		</td>
		<td>
			Multiply values.
		</td>
	</tr>
	<tr>
		<td>
			MultiplySignedIntegerValues
		</td>
		<td>
			D8
		</td>
		<td>
			mul.ovf.&lt;type&gt;
		</td>
		<td>
			Multiply signed integer values. Signed result shall fit in same size
		</td>
	</tr>
	<tr>
		<td>
			MultiplyUnsignedIntegerValues
		</td>
		<td>
			D9
		</td>
		<td>
			mul.ovf.un
		</td>
		<td>
			Multiply unsigned integer values. Unsigned result shall fit in same size
		</td>
	</tr>
	<tr>
		<td>
			NegateValue
		</td>
		<td>
			65
		</td>
		<td>
			neg
		</td>
		<td>
			Negate value.
		</td>
	</tr>
	<tr>
		<td>
			CreateArray
		</td>
		<td>
			8D
		</td>
		<td>
			newarr &lt;etype&gt;
		</td>
		<td>
			Create a new array with elements of type etype.
		</td>
	</tr>
	<tr>
		<td>
			CreateObject
		</td>
		<td>
			73
		</td>
		<td>
			newobj &lt;ctor&gt;
		</td>
		<td>
			Allocate an uninitialized object or value type and call ctor.
		</td>
	</tr>
	<tr>
		<td>
			SkipCheck
		</td>
		<td>
			FE 19
		</td>
		<td>
			no. { typecheck, rangecheck, nullcheck } [prefix]
		</td>
		<td>
			The specified fault check(s) normally performed
			<p>
				as part of the execution of the subsequent instruction can/shall be skipped.
			</p>
		</td>
	</tr>
	<tr>
		<td>
			NoOperation
		</td>
		<td>
			00
		</td>
		<td>
			nop
		</td>
		<td>
			Do nothing.
		</td>
	</tr>
	<tr>
		<td>
			NotValues
		</td>
		<td>
			66
		</td>
		<td>
			not
		</td>
		<td>
			Bitwise complement.
		</td>
	</tr>
	<tr>
		<td>
			OrValues32
		</td>
		<td>
			60
		</td>
		<td>
			or
		</td>
		<td>
			Bitwise OR of two integer values, returns an integer.
		</td>
	</tr>
	<tr>
		<td>
			PullValueFromStack
		</td>
		<td>
			26
		</td>
		<td>
			pop
		</td>
		<td>
			Pop value from the stack.
		</td>
	</tr>
	<tr>
		<td>
			ReadOnly
		</td>
		<td>
			FE 1E
		</td>
		<td>
			readonly. [prefix]
		</td>
		<td>
			Specify that the subsequent array address operation performs no
			<p>
				type check at runtime, and that it returns a controlled-mutability managed pointer
			</p>
		</td>
	</tr>
	<tr>
		<td>
			PushTypeIDToStack
		</td>
		<td>
			FE 1D
		</td>
		<td>
			refanytype
		</td>
		<td>
			Push the type token stored in a typed reference.
		</td>
	</tr>
	<tr>
		<td>
			PushAddressToStack
		</td>
		<td>
			C2
		</td>
		<td>
			refanyval &lt;type&gt;
		</td>
		<td>
			Push the address stored in a typed reference.
		</td>
	</tr>
	<tr>
		<td>
			DivideValuesAndGetRemainder
		</td>
		<td>
			5D
		</td>
		<td>
			rem
		</td>
		<td>
			Remainder when dividing one value by another.
		</td>
	</tr>
	<tr>
		<td>
			DivideUnsignedValuesAndGetRemainder
		</td>
		<td>
			5E
		</td>
		<td>
			rem.un
		</td>
		<td>
			Remainder when dividing one unsigned value by another.
		</td>
	</tr>
	<tr>
		<td>
			Return
		</td>
		<td>
			2A
		</td>
		<td>
			ret
		</td>
		<td>
			Return from method, possibly with a value.
		</td>
	</tr>
	<tr>
		<td>
			RethrowException
		</td>
		<td>
			FE 1A
		</td>
		<td>
			rethrow
		</td>
		<td>
			Rethrow the current exception.
		</td>
	</tr>
	<tr>
		<td>
			ShiftIntegerLeft
		</td>
		<td>
			62
		</td>
		<td>
			shl
		</td>
		<td>
			Shift an integer left (shifting in zeros), return an integer.
		</td>
	</tr>
	<tr>
		<td>
			ShiftIntegerRight
		</td>
		<td>
			63
		</td>
		<td>
			shr
		</td>
		<td>
			Shift an integer right (shift in sign), return an integer.
		</td>
	</tr>
	<tr>
		<td>
			ShiftUnsignedIntegerRight
		</td>
		<td>
			64
		</td>
		<td>
			shr.un
		</td>
		<td>
			Shift an integer right (shift in zero), return an integer.
		</td>
	</tr>
	<tr>
		<td>
			GetTypeSize
		</td>
		<td>
			FE 1C
		</td>
		<td>
			sizeof &lt;typeTok&gt;
		</td>
		<td>
			Push the size, in bytes, of a type as an unsigned int32.
		</td>
	</tr>
	<tr>
		<td>
			PullArgumentFromStack16
		</td>
		<td>
			FE 0B
		</td>
		<td>
			starg &lt;uint16 (num)&gt;
		</td>
		<td>
			Store value to the argument numbered num.
		</td>
	</tr>
	<tr>
		<td>
			PullArgumentFromStack8
		</td>
		<td>
			10
		</td>
		<td>
			starg.s &lt;uint8 (num)&gt;
		</td>
		<td>
			Store value to the argument numbered num, short form.
		</td>
	</tr>
	<tr>
		<td>
			PullArrayItemFromStack
		</td>
		<td>
			A4
		</td>
		<td>
			stelem &lt;typeTok&gt;
		</td>
		<td>
			Replace array element at index with the value on the stack
		</td>
	</tr>
	<tr>
		<td>
			PullArrayNativeIntegerFromStack
		</td>
		<td>
			9B
		</td>
		<td>
			stelem.i
		</td>
		<td>
			Replace array element at index with the i value on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PullArrayByteFromStack
		</td>
		<td>
			9C
		</td>
		<td>
			stelem.i1
		</td>
		<td>
			Replace array element at index with the int8 value on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PullArrayShortFromStack
		</td>
		<td>
			9D
		</td>
		<td>
			stelem.i2
		</td>
		<td>
			Replace array element at index with the int16 value on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PullArrayIntegerFromStack
		</td>
		<td>
			9E
		</td>
		<td>
			stelem.i4
		</td>
		<td>
			Replace array element at index with the int32 value on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PullArrayLongFromStack
		</td>
		<td>
			9F
		</td>
		<td>
			stelem.i8
		</td>
		<td>
			Replace array element at index with the int64 value on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PullArrayFloatFromStack
		</td>
		<td>
			A0
		</td>
		<td>
			stelem.r4
		</td>
		<td>
			Replace array element at index with the float32 value on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PullArrayDoubleFromStack
		</td>
		<td>
			A1
		</td>
		<td>
			stelem.r8
		</td>
		<td>
			Replace array element at index with the float64 value on the stack.
		</td>
	</tr>
	<tr>
		<td>
			PullArrayReferenceFromStack
		</td>
		<td>
			A2
		</td>
		<td>
			stelem.ref
		</td>
		<td>
			Replace array element at index with the ref value on the stack.
		</td>
	</tr>
	<tr>
		<td>
			SetFieldValue
		</td>
		<td>
			7D
		</td>
		<td>
			stfld &lt;field&gt;
		</td>
		<td>
			Replace the value of field of the object obj with value.
		</td>
	</tr>
	<tr>
		<td>
			SetNativeIntegerAtAddress
		</td>
		<td>
			DF
		</td>
		<td>
			stind.i
		</td>
		<td>
			Store value of type native int into memory at address
		</td>
	</tr>
	<tr>
		<td>
			SetByteAtAddress
		</td>
		<td>
			52
		</td>
		<td>
			stind.i1
		</td>
		<td>
			Store value of type int8 into memory at address
		</td>
	</tr>
	<tr>
		<td>
			SetShortAtAddress
		</td>
		<td>
			53
		</td>
		<td>
			stind.i2
		</td>
		<td>
			Store value of type int16 into memory at address
		</td>
	</tr>
	<tr>
		<td>
			SetIntegerAtAddress
		</td>
		<td>
			54
		</td>
		<td>
			stind.i4
		</td>
		<td>
			Store value of type int32 into memory at address
		</td>
	</tr>
	<tr>
		<td>
			SetLongAtAddress
		</td>
		<td>
			55
		</td>
		<td>
			stind.i8
		</td>
		<td>
			Store value of type int64 into memory at address
		</td>
	</tr>
	<tr>
		<td>
			SetFloatAtAddress
		</td>
		<td>
			56
		</td>
		<td>
			stind.r4
		</td>
		<td>
			Store value of type float32 into memory at address
		</td>
	</tr>
	<tr>
		<td>
			SetDoubleAtAddress
		</td>
		<td>
			57
		</td>
		<td>
			stind.r8
		</td>
		<td>
			Store value of type float64 into memory at address
		</td>
	</tr>
	<tr>
		<td>
			SetReferenceAtAddress
		</td>
		<td>
			51
		</td>
		<td>
			stind.ref
		</td>
		<td>
			Store value of type object ref (type O) into memory at address
		</td>
	</tr>
	<tr>
		<td>
			PullVariableFromStack16
		</td>
		<td>
			FE 0E
		</td>
		<td>
			stloc &lt;uint16 (indx)&gt;
		</td>
		<td>
			Pop a value from stack into local variable indx.
		</td>
	</tr>
	<tr>
		<td>
			PullVariable0FromStack
		</td>
		<td>
			0A
		</td>
		<td>
			stloc.0
		</td>
		<td>
			Pop a value from stack into local variable 0.
		</td>
	</tr>
	<tr>
		<td>
			PullVariable1FromStack
		</td>
		<td>
			0B
		</td>
		<td>
			stloc.1
		</td>
		<td>
			Pop a value from stack into local variable 1.
		</td>
	</tr>
	<tr>
		<td>
			PullVariable2FromStack
		</td>
		<td>
			0C
		</td>
		<td>
			stloc.2
		</td>
		<td>
			Pop a value from stack into local variable 2.
		</td>
	</tr>
	<tr>
		<td>
			PullVariable3FromStack
		</td>
		<td>
			0D
		</td>
		<td>
			stloc.3
		</td>
		<td>
			Pop a value from stack into local variable 3.
		</td>
	</tr>
	<tr>
		<td>
			PullVariableFromStack8
		</td>
		<td>
			13
		</td>
		<td>
			stloc.s &lt;uint8 (indx)&gt;
		</td>
		<td>
			Pop a value from stack into local variable indx, short form.
		</td>
	</tr>
	<tr>
		<td>
			SetTypeAtAddress
		</td>
		<td>
			81
		</td>
		<td>
			stobj &lt;typeTok&gt;
		</td>
		<td>
			Store a value of type typeTok at an address.
		</td>
	</tr>
	<tr>
		<td>
			SetFieldValue
		</td>
		<td>
			80
		</td>
		<td>
			stsfld &lt;field&gt;
		</td>
		<td>
			Replace the value of field with val.
		</td>
	</tr>
	<tr>
		<td>
			SubtractValues
		</td>
		<td>
			59
		</td>
		<td>
			sub
		</td>
		<td>
			Subtract value2 from value1, returning a new value.
		</td>
	</tr>
	<tr>
		<td>
			SubtractNativeIntegers
		</td>
		<td>
			DA
		</td>
		<td>
			sub.ovf
		</td>
		<td>
			Subtract native int from a native int. Signed result shall fit in same size
		</td>
	</tr>
	<tr>
		<td>
			SubtractUnsignedNativeIntegers
		</td>
		<td>
			DB
		</td>
		<td>
			sub.ovf.un
		</td>
		<td>
			Subtract native unsigned int from a native unsigned int. Unsigned result shall fit in same size.
		</td>
	</tr>
	<tr>
		<td>
			Switch
		</td>
		<td>
			45
		</td>
		<td>
			switch &lt;uint32, int32,int32 (t1..tN)&gt;
		</td>
		<td>
			Jump to one of n values.
		</td>
	</tr>
	<tr>
		<td>
			EndMethod
		</td>
		<td>
			FE 14
		</td>
		<td>
			tail. [prefix]
		</td>
		<td>
			Subsequent call terminates current method
		</td>
	</tr>
	<tr>
		<td>
			ThrowException
		</td>
		<td>
			7A
		</td>
		<td>
			throw
		</td>
		<td>
			Throw an exception.
		</td>
	</tr>
	<tr>
		<td>
			Unaligned
		</td>
		<td>
			FE 12
		</td>
		<td>
			unaligned. (alignment) [prefix]
		</td>
		<td>
			Subsequent pointer instruction might be unaligned.
		</td>
	</tr>
	<tr>
		<td>
			Unbox
		</td>
		<td>
			79
		</td>
		<td>
			unbox &lt;valuetype&gt;
		</td>
		<td>
			Extract a value-type from obj, its boxed representation.
		</td>
	</tr>
	<tr>
		<td>
			UnboxAny
		</td>
		<td>
			A5
		</td>
		<td>
			unbox.any &lt;typeTok&gt;
		</td>
		<td>
			Extract a value-type from obj, its boxed representation
		</td>
	</tr>
	<tr>
		<td>
			Volatile
		</td>
		<td>
			FE 13
		</td>
		<td>
			volatile. [prefix]
		</td>
		<td>
			Subsequent pointer reference is volatile.
		</td>
	</tr>
	<tr>
		<td>
			ExclusiveOrValues
		</td>
		<td>
			61
		</td>
		<td>
			xor
		</td>
		<td>
			Bitwise XOR of integer values, returns an integer.
		</td>
	</tr>
</table>
